理论框架包括时空理论、网流理论、智能理论。
The theory architecture consists of Spatio-Temporal, Net-Flow and Intelligence theory.
通过建立的模型证实相对论的时空理论存在局限性。
To verify the limitations existed in the space-time theory of relativity through the established model.
量子引力时空理论的横断语境分析,显示了量子引力理论提出的现实语境和对其进行求解的语境选择所具有的重要意义。
A diatropic contextual analysis indicates the actual contexts in which quantum gravity theory is proposed and the importance of explanatory contextual choices.
在理论上推导出负能量粒子具有正质量并在相对论框架内得到与正能系统不同的时空变换关系的基础上,证明了这个时空理论是逻辑一致的。
Through the time and space match relation of source rock, transform pathway and trap, showed that Xing'anling group trap located over the source.
例如,该理论预测了均匀且各向同性时空的最大密度,而这可能隐含了黑洞形成过程的某些信息。
For instance, the theory predicts a maximum density of homogeneous and isotropic space-time, which could have implications for black hole formation.
最终,我们将第一次从量子理论中揭开时空的庐山真面目。
Ultimately, we may have our first indication of how space-time emerges out of quantum theory.
理论物理学家一直相信,在最微小的尺度上,量子效应将导致时空的杂乱震动。
Theoretical physicists have long believed that quantum effects will cause space-time to convulse wildly on the tiniest scales.
爱因斯坦的理论认为大质量物体将使时空结构发生扭曲。
Einstein's theory recognizes that massive objects warp the very fabric of space and time.
这支持了暴涨理论并且更进一步证明了“暗能量”像预期的那样充斥着我们的宇宙从而引起时空膨胀的加速。
This supports inflation theory and provides further evidence for the mysterious "Dark Energy" that is predicted to permeate through the universe, causing space-time to expand at an accelerated rate.
全息时空被用于某种研究量子化引力的方法,这种方法与超弦理论联系紧密。
"Holographic space-time is used in certain approaches to quantising gravity that have a strong connection to string theory, " says Cramer.
在爱因斯坦的理论中,扭曲的时空甚至影响到光。
这就是说,研究环圈量子重力学的理论学家认为无需先作出时空的几何假设,便能表述自然定律。
This means that theorists working on it believe the laws of nature can be stated without making any prior assumptions about the geometry of space and time.
这种时空的颗粒性源于超弦理论与环圈量子重力学的最重要差异。
This granularity emerges from what is the most important difference between the two theories.
这个理论认为粒子的时空不可分割。
This argues that particles are not separate from space and time.
然而,修正后的Eddington理论要求早期时空的尺度应该具有某个最小值,这意味着那时的宇宙不可能是一个奇点。
However, Eddington's revised theory requires a minimum length of space-time at early times, which means that the Universe could not have been a singularity.
一些弦论理论家认为弦论所预测的时空以外的额外维度,可能就是这个形状。
Some string theorists think the extra dimensions of space-time, which are predicted in string theory, may take this shape.
事实上,研究环圈量子重力学的理论学家认为,物质本身不过是时空纽带扭曲缠绕而成的编织物。
Indeed, theorists working on loop quantum gravity think that matter itself is merely the result of twisting and braiding ribbons of space-time.
量子引力理论指出时空结构具有一个由一维量子线编织成的“原子”几何图。
Quantum-gravity theory indicates that the fabric of space-time has an "atomic" geometry that is woven with one-dimensional quantum threads.
根据这个理论的规则,询问这个网所在的时空是毫无意义的,因为这个网正是构成时空的材料。
According to its rules, it is meaningless to ask where in space and time this mesh exists, because the mesh is the stuff of which space and time are composed.
奇点这个单词来自于天体物理学:它指的是时空中(例如黑洞内部)所有物理理论都失效的一点。
The word singularity is borrowed from astrophysics: it refers to a point in space-time - for example, inside a black hole - at which the rules of ordinary physics do not apply.
正如我们一些人知道,或者理论猜测那样,虫洞并不是一个门户,而实际上是一个钻孔或者时空长河中的一个扰动。
As some of us know, or theoretically guessed, a wormhole is not a portal, but actually a drill or disturbance in the river of space and time.
一种叫做“膨胀论”的理论提出假设:我们所看到的宇宙不过是时空中的一个小气泡,该气泡在宇宙大爆炸之后迅速膨胀开来。
A theory called inflation posits that the universe we see is just a small bubble of space-time that got rapidly expanded after the Big Bang.
然而,2001年发表的理论著作却表明,如果时空当中的确存在额外的维,大型强子对撞不论如何都能够制造出黑洞来。
But theoretical work published in 2001 showed that if hidden extra dimensions in space-time did exist, the LHC might create black holes after all.
经典电磁理论是四维协变的,相对论时空概念的改变是根本性的改变。
The change of time and space concept of theory of relativity is right-about.
虫洞理论是爱因斯坦提出并由纳森•罗森完善的。虫洞就是连接两个遥远时空的多维空间隧道。
Wormhole Theory is proposed by Einstein and perfected by Nathan Rosen. Wormhole is a multi-dimensional space tunnel connecting two distant Spaces.
在实际意义上说,这个理论确实是一个创造,在10维时空的全部功能是明显的理论。
In a real sense, this theory is really a theory of creation, when the full power of 10 dimensional space-time was manifest.
全文分为二部分,第一部分研究时空域衍射理论和算子光学方法,及其在激光光学和强激光技术中的应用。
Part I deals with the diffraction theory in the time -space domains and operator optical methods, as well as their applications to laser optics and high power laser technology.
本论文主要是关于飞秒激光脉冲傅里叶时空变换整形的理论研究。
This paper is mainly on theoretical research of femtosecond laser pulse Fourier space-time transform shaping.
本论文主要是关于飞秒激光脉冲傅里叶时空变换整形的理论研究。
This paper is mainly on theoretical research of femtosecond laser pulse Fourier space-time transform shaping.
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